Results 171 to 180 of about 42,432 (227)
Interspecies hydrogen transfer between cyanobacteria and symbiotic bacteria drives nitrogen loss. [PDF]
Nat CommunKong L +6 more
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High-Throughput Screening of Co-Protoporphyrin IX-Binding Proteins for Enhanced Hydrogen Production. [PDF]
MoleculesHalloran NR +4 more
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The potential biofertilization effect of H<sub>2</sub> is accompanied by a modest impact on the composition of microbial communities in the rhizosphere of common vetch. [PDF]
PeerJDip D, Constant P.
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2018
Hydrogenases catalyze the simple yet important interconversion between H2 and protons and electrons. Found throughout prokaryotes, lower eukaryotes, and archaea, hydrogenases are used for a variety of redox and signaling purposes and are found in many different forms.
Nathaniel S, Sickerman, Yilin, Hu
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Hydrogenases catalyze the simple yet important interconversion between H2 and protons and electrons. Found throughout prokaryotes, lower eukaryotes, and archaea, hydrogenases are used for a variety of redox and signaling purposes and are found in many different forms.
Nathaniel S, Sickerman, Yilin, Hu
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1981
For a variety of reasons, including the potential industrial applications of hydrogenase, we are interested in the isolation and analysis of hydrogenase genes. In a program focusing on the hydrogen bacterium A. eutrophus H1 and E. coli, we have developed a preliminary concept of the interaction of hydrogenase in cellular metabolism, constructed mutants
R C, Tait +3 more
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For a variety of reasons, including the potential industrial applications of hydrogenase, we are interested in the isolation and analysis of hydrogenase genes. In a program focusing on the hydrogen bacterium A. eutrophus H1 and E. coli, we have developed a preliminary concept of the interaction of hydrogenase in cellular metabolism, constructed mutants
R C, Tait +3 more
openaire +2 more sources
2013
Several evolutionary models proposed that molecular hydrogen (H2) was the primary energy source on the early Earth, exerting a major influence on the origin of life. Hydrogenase, the enzyme catalyzing the interconversion of H2 into protons and electrons, is thus considered an ancestral invention, for which the molecular structure and architecture have ...
Constant, Philippe +1 more
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Several evolutionary models proposed that molecular hydrogen (H2) was the primary energy source on the early Earth, exerting a major influence on the origin of life. Hydrogenase, the enzyme catalyzing the interconversion of H2 into protons and electrons, is thus considered an ancestral invention, for which the molecular structure and architecture have ...
Constant, Philippe +1 more
openaire +2 more sources
Biochemistry, 2014
Hydrogenases are metalloenzymes that catalyze the reversible reduction of protons at unusual metal centers. This Current Topic discusses recent advances in elucidating the steps involved in the biosynthesis of the complex metal cluster at the [FeFe]-hydrogenase (HydA) active site, known as the H-cluster.
Eric M, Shepard +6 more
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Hydrogenases are metalloenzymes that catalyze the reversible reduction of protons at unusual metal centers. This Current Topic discusses recent advances in elucidating the steps involved in the biosynthesis of the complex metal cluster at the [FeFe]-hydrogenase (HydA) active site, known as the H-cluster.
Eric M, Shepard +6 more
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Biochemistry, 2016
[NiFe]-hydrogenases catalyze the reversible conversion of hydrogen gas into protons and electrons and are vital metabolic components of many species of bacteria and archaea. At the core of this enzyme is a sophisticated catalytic center comprising nickel and iron, as well as cyanide and carbon monoxide ligands, which is anchored to the large ...
Lacasse, Michael J, Zamble, Deborah B
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[NiFe]-hydrogenases catalyze the reversible conversion of hydrogen gas into protons and electrons and are vital metabolic components of many species of bacteria and archaea. At the core of this enzyme is a sophisticated catalytic center comprising nickel and iron, as well as cyanide and carbon monoxide ligands, which is anchored to the large ...
Lacasse, Michael J, Zamble, Deborah B
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Chemistry and the hydrogenases
Chemical Society Reviews, 2003AbstractFor Abstract see ChemInform Abstract in Full Text.
David J, Evans, Christopher J, Pickett
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2006
Enzymes possessing the capacity to oxidize molecular hydrogen have developed convergently three class of enzymes leading to: [FeFe]-, [NiFe]-, and [FeS]-cluster-free hydrogenases. They differ in the composition and the structure of the active site metal centre and the sequence of the constituent structural polypeptides but they show one unifying ...
August, Böck +3 more
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Enzymes possessing the capacity to oxidize molecular hydrogen have developed convergently three class of enzymes leading to: [FeFe]-, [NiFe]-, and [FeS]-cluster-free hydrogenases. They differ in the composition and the structure of the active site metal centre and the sequence of the constituent structural polypeptides but they show one unifying ...
August, Böck +3 more
openaire +2 more sources